Distribuuuu is a Distributed Classification Training Framework powered by native PyTorch.
Please check tutorial for detailed Distributed Training tutorials:
- Single Node Single GPU Card Training [snsc.py]
- Single Node Multi-GPU Cards Training (with DataParallel) [snmc_dp.py]
- Multiple Nodes Multi-GPU Cards Training (with DistributedDataParallel)
- torch.distributed.launch [mnmc_ddp_launch.py]
- torch.multiprocessing [mnmc_ddp_mp.py]
- Slurm Workload Manager [mnmc_ddp_slurm.py]
- ImageNet training example [imagenet.py]
For the complete training framework, please see distribuuuu.
- Install PyTorch>= 1.6 (has been tested on 1.6, 1.7.1, 1.8 and 1.8.1)
- Install other dependencies:
pip install -r requirements.txt
Download the ImageNet dataset and move validation images to labeled subfolders, using the script valprep.sh.
Expected datasets structure for ILSVRC
ILSVRC
|_ train
| |_ n01440764
| |_ ...
| |_ n15075141
|_ val
| |_ n01440764
| |_ ...
| |_ n15075141
|_ ...
Create a directory containing symlinks:
mkdir -p /path/to/distribuuuu/data
Symlink ILSVRC:
ln -s /path/to/ILSVRC /path/to/distribuuuu/data/ILSVRC
Single Node with one task
# 1 node, 8 GPUs
python -m torch.distributed.launch \
--nproc_per_node=8 \
--nnodes=1 \
--node_rank=0 \
--master_addr=localhost \
--master_port=29500 \
train_net.py --cfg config/resnet18.yaml
Distribuuuu use yacs, a elegant and lightweight package to define and manage system configurations. You can setup config via a yaml file, and overwrite by other opts. If the yaml is not provided, the default configuration file will be used, please check distribuuuu/config.py.
python -m torch.distributed.launch \
--nproc_per_node=8 \
--nnodes=1 \
--node_rank=0 \
--master_addr=localhost \
--master_port=29500 \
train_net.py --cfg config/resnet18.yaml \
OUT_DIR /tmp \
MODEL.SYNCBN True \
TRAIN.BATCH_SIZE 256
# --cfg config/resnet18.yaml parse config from file
# OUT_DIR /tmp overwrite OUT_DIR
# MODEL.SYNCBN True overwrite MODEL.SYNCBN
# TRAIN.BATCH_SIZE 256 overwrite TRAIN.BATCH_SIZE
Single Node with two tasks
# 1 node, 2 task, 4 GPUs per task (8GPUs)
# task 1:
CUDA_VISIBLE_DEVICES=0,1,2,3 python -m torch.distributed.launch \
--nproc_per_node=4 \
--nnodes=2 \
--node_rank=0 \
--master_addr=localhost \
--master_port=29500 \
train_net.py --cfg config/resnet18.yaml
# task 2:
CUDA_VISIBLE_DEVICES=4,5,6,7 python -m torch.distributed.launch \
--nproc_per_node=4 \
--nnodes=2 \
--node_rank=1 \
--master_addr=localhost \
--master_port=29500 \
train_net.py --cfg config/resnet18.yaml
Multiple Nodes Training
# 2 node, 8 GPUs per node (16GPUs)
# node 1:
python -m torch.distributed.launch \
--nproc_per_node=8 \
--nnodes=2 \
--node_rank=0 \
--master_addr="10.198.189.10" \
--master_port=29500 \
train_net.py --cfg config/resnet18.yaml
# node 2:
python -m torch.distributed.launch \
--nproc_per_node=8 \
--nnodes=2 \
--node_rank=1 \
--master_addr="10.198.189.10" \
--master_port=29500 \
train_net.py --cfg config/resnet18.yaml
# see srun --help
# and https://slurm.schedmd.com/ for details
# example: 64 GPUs
# batch size = 64 * 128 = 8192
# itertaion = 128k / 8192 = 156
# lr = 64 * 0.1 = 6.4
srun --partition=openai-a100 \
-n 64 \
--gres=gpu:8 \
--ntasks-per-node=8 \
--job-name=Distribuuuu \
python -u train_net.py --cfg config/resnet18.yaml \
TRAIN.BATCH_SIZE 128 \
OUT_DIR ./resnet18_8192bs \
OPTIM.BASE_LR 6.4
Baseline models trained by Distribuuuu:
- We use SGD with momentum of 0.9, a half-period cosine schedule, and train for 100 epochs.
- We use a reference learning rate of 0.1 and a weight decay of 5e-5 (1e-5 For EfficientNet).
- The actual learning rate(Base LR) for each model is computed as (batch-size / 128) * reference-lr.
- Only standard data augmentation techniques(RandomResizedCrop and RandomHorizontalFlip) are used.
PS: use other robust tricks(more epochs, efficient data augmentation, etc.) to get better performance.
Arch | Params(M) | Total batch | Base LR | Acc@1 | Acc@5 | model / config |
---|---|---|---|---|---|---|
resnet18 | 11.690 | 256 (32*8GPUs) | 0.2 | 70.902 | 89.894 | Drive / cfg |
resnet18 | 11.690 | 1024 (128*8GPUs) | 0.8 | 70.994 | 89.892 | |
resnet18 | 11.690 | 8192 (128*64GPUs) | 6.4 | 70.165 | 89.374 | |
resnet18 | 11.690 | 16384 (256*64GPUs) | 12.8 | 68.766 | 88.381 | |
efficientnet_b0 | 5.289 | 512 (64*8GPUs) | 0.4 | 74.540 | 91.744 | Drive / cfg |
resnet50 | 25.557 | 256 (32*8GPUs) | 0.2 | 77.252 | 93.430 | Drive / cfg |
botnet50 | 20.859 | 256 (32*8GPUs) | 0.2 | 77.604 | 93.682 | Drive / cfg |
regnetx_160 | 54.279 | 512 (64*8GPUs) | 0.4 | 79.992 | 95.118 | Drive / cfg |
regnety_160 | 83.590 | 512 (64*8GPUs) | 0.4 | 80.598 | 95.090 | Drive / cfg |
regnety_320 | 145.047 | 512 (64*8GPUs) | 0.4 | 80.824 | 95.276 | Drive / cfg |
Before PyTorch1.8, torch.distributed.launch
will leave some zombie processes after using Ctrl
+ C
, try to use the following cmd to kill the zombie processes. (fairseq/issues/487):
kill $(ps aux | grep YOUR_SCRIPT.py | grep -v grep | awk '{print $2}')
PyTorch >= 1.8 is suggested, which fixed the issue about zombie process. (pytorch/pull/49305)
Provided codes were adapted from:
I strongly recommend you to choose pycls, a brilliant image classification codebase and adopted by a number of projects at Facebook AI Research.
@misc{bigballon2021distribuuuu,
author = {Wei Li},
title = {Distribuuuu: The pure and clear PyTorch Distributed Training Framework},
howpublished = {\url{https://github.com/BIGBALLON/distribuuuu}},
year = {2021}
}
Feel free to contact me if you have any suggestions or questions, issues are welcome, create a PR if you find any bugs or you want to contribute. 🍰